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MIL-PRF-19500 Appendix J:Inclusion of Plastic Encapsulated Discrete Semiconductor Devices for Military Applications Task Group Status Update for NEPP ETW
Benny DamronJacobs Space Exploration GroupNASA Marshall Space Flight CenterRonan Dillon, Microchip IrelandDate 06-15-2020
Acronyms
• AC – Autoclave• CA – Constant Acceleration• CA – Construction Analysis• DLA – Defense Logistics Agency• DPA – Destructive Physical Analysis• EP – Engineering Practice• ESD – Electrostatic Discharge• HAST – Highly Accelerated Stress Testing• HTRB – High Temperature Reverse Bias• IOL – Intermittent Operating Life• JAN – Joint Army Navy• JANTX – Joint Army Navy eXtra Testing• JANTXV – Joint Army Navy eXtra Testing
with Visual
• JEDEC – Joint Electronic Devices Council• NASA – National Aeronautics and Space Administration• PEDS – Plastic Encapsulated Discrete
Semiconductors• SAE – Society of Automotive Engineers• Tg – Glassivation Temperature • Tj – Junction Temperature• TS – Terminal Strength• UHAST – Unbiased Highly Accelerated
Stress Test
2
Agenda
3
1. Marshall Space Flight Center 2. MIL-PRF-19500 Task Appendix J Group3. Appendix J comparison to SAE 6294/3 and /4 document4. Appendix J differences in screening and qualification
flows5. Appendix J Task Group Status Summary6. Appendix J Task Group Future Plans7. Backup data
Marshall Space Flight Center (MSFC)
4
Charter: Space Launch, Propulsion, Exploration Systems, Materials and Manufacturing, Scientific Research Photo courtesy of NASA
Life Sciences Glove Box for ISSPhoto courtesy of NASASLS Main Engines
Photo courtesy of NASA
Environmental Controlled Life Support System (ECLSS) used on ISS Photo courtesy of NASA4 RS-25 Main Engines attached
to the SLS Core StagePhoto courtesy of NASA
Orion stage adapter flight hardware Photo courtesy of NASA
Marshall Space Flight Center (MSFC)
5
2019 NASA Great Moon Buggy race, 25th anniversary Photo courtesy of NASA
ES43 Printed Circuit Board Assembly for experiments and flight hardwarePhoto courtesy of NASA
Payload Operations Center for ISS Experiments
Photo courtesy of NASA
Liquid Hydrogen Tank in Test StandPhoto courtesy of NASA
Microchip Technologies
6
1B1 2B1 3B1 4B1 5B1 6B1Burn-in board for plastic encapsulated discrete semiconductorsPhoto courtesy of Microchip Technologies
Acoustic microscopy images of plastic encapsulated discrete semiconductorsPhotos courtesy of Microchip Technologies
19500 Appendix J Task Group• The Appendix J Task group was started to address the need for military grade PEDs in
Department of Defense programs. Some department of defense programs use plastic encapsulated versions of military discrete semiconductors and have to screen each lot of procured devices prior to usage in their programs. The goal of this effort is to enable the user community to have access to a military qualified plastic encapsulated discrete semiconductor available and eventually have a space qualified plastic encapsulated device.
• There are several concerns with commercial off the shelf PEDs• No control over device changes – the military and space user community have no control or oversight
into device design changes made by the device manufacturer. • Parts Obsolescence – Life cycle for commercial off the shelf PEDs is technology dependent and varies
from manufacturer to manufacturer; whereas many military grade devices have been manufactured for decades and continue to be manufactured
7
19500 Appendix J Task Group Continued• Lower operating temperature range – commercial off the shelf devices typically have a lower operating
temperature range than comparable military grade. For example a military grade 2N2222 transistor operating temperature range is -65C to +200C, while the commercial version operating temperature range is -55C to +150C or less
• Costly screening and qualification testing required for each lot of commercial off the shelf PEDs utilized because there is no guarantee that the device design won’t change between procurements of the same part number.
8
19500 Appendix J Comparison to SAE 6294/3, /4• SAE AS6294/3 and AS6294/4 PEDS documents were developed to provide the user
community with standard screening and qualification guidelines for commercial off the shelf discrete semiconductors utilized in space and military applications.
• MIL-PRF-19500 Appendix J document development focus has been to provide government and military users with the following: DLA Land and Maritime audited and certified manufacturers, DLA qualified military product, standard screening flows, non-hermetic part number prefix scheme, and standard products.
• DLA Land and Maritime initial manufacturer audits required to certify and qualify manufacturing lines to supply military qualified non-hermetic MIL-PRF-19500 product
• Periodic DLA manufacturer re-certification audits identical to the hermetic audits with exceptions due to packaging are required.
• Standard military screening and qualification flows based on MIL-PRF-19500 hermetic screening and qualification flows with packaging exceptions.
• Initial DLA Land and Maritime device qualification will be for JANTXV-like and JANTX-like levels only. Initial part numbering scheme prefix is planned to be JANP, JANPX, and JANPXV.
• Major change table added to appendix J to provide requalification requirements for plastic military qualified devices.
9
19500 Appendix J Screening Differences• Non-hermetic screening flow follows the hermetic screening with
differences listed below and as shown in the following slides:– Temperature cycling is performed at a lower temperature range than
hermetic devices.– High Temperature Reverse Bias performed at 125°C ambient
temperature or 80 percent of maximum operating temperature if maximum operating temperature is less than 150°C.
– Burn-in performed at 125°C junction temperature or 80 percent of maximum operating temperature if maximum operating temperature is less than 150°C.
10
19500 Appendix J Screening Differences Cont.’d• Non-hermetic screening flow follows the hermetic screening with
differences listed below and as shown in the following slides:– Radiography ‘as specified’.– 100 percent Acoustic Microscopy screening ‘as specified’.– non hermetic JANPXV and JANPX no hermeticity testing required
11
19500 Appendix J Screening FlowJANTXV/JANTX JANTXV-like/JANTX-like
Screen Hermetic Non-hermetic• Internal Visual Yes Yes
• High Temperature Optional Optional Non-operating life
• Temperature Cycling Condition C* Condition G**
* Method 1051 condition C temperature range is -55°C to +175°C** Method 1051 condition G temperature range is -55°C to +150°C or maximum storage temperature.
12
19500 Appendix J Screening Flow Cont.’d
JANTXV/JANTX JANTXV-like/JANTX-like Screen Hermetic Non-hermetic
• Surge Yes Yes
• Thermal Impedance Yes Yes
• PIND Optional Not applicable
13
19500 Appendix J Screening Flow Cont.’dJANTXV/JANTX JANTXV-like/JANTX-like
Screen Hermetic Non-hermetic• Interim Electrical Yes Yes
Parameters
• High Temperature Yes Yes*Reverse Bias
• Interim Electrical Yes YesParameters
*Minimum Tj of 125°C or 80% of maximum operating temperature if less than 150°C
14
19500 Appendix J Screening Flow Cont.’d
JANTXV/JANTX JANTXV-like/JANTX-likeScreen Hermetic Non-hermetic
• Burn in Yes Yes*(Tj = 135°C typical)
• Final Electrical Yes YesParameters
* Minimum Tj of 125°C or 80% of maximum operating temperature if less than 150°C.
15
19500 Appendix J Screening Flow Cont.’dJANTXV/JANTX JANTXV-like/JANTX-like
Screen Hermetic Non-hermetic• Final Electrical Yes Yes
Parameters
• Radiography As specified As specified
• Hermeticity Yes Not applicable
• Acoustic Microscopy Not applicable As specified
16
19500 Appendix J Screening Flow Cont.’d
JANTXV/JANTX JANTXV-like/JANTX-likeScreen Hermetic Non-hermetic
• External Visual No Yes
• Case Isolation As specified Not applicable
17
19500 Appendix J Group A Qualification Differences
• Non-hermetic qualification flow = hermetic (except as noted)
• Temperature cycling is performed at a lower temperature range than hermetic devices.
• Added Autoclave or unbiased HAST (sequential test flow) option testing for small die flow which is Group B testing for the small die flow devices.
• Acoustic Microscopy screening will be ‘As specified’ on a slash sheet by slash sheet basis for non hermetic JANTXV-like and JANTX-like devices
18
19500 Appendix J Group A Qualification Differences• Group A subgroup 1, small die flow
– Highly Accelerated Stress Testing
• 130C/85% RH t = 96 hours, or
• 110C/85% RH t = 264 hours, or
• Autoclave – 121C/100% RH t = 96 hours
– Temperature cycling test condition G instead of condition C
19
19500 Appendix J Group B Qualification Differences• Non-hermetic qualification flow = hermetic (except as noted)
– Temperature cycling is performed at a lower temperature range than hermetic devices.
– Life testing (340 hours) performed at lower temperature (+125°C )or 80 percent of maximum operating temperature
– Acoustic Microscopy screening is required as part of the decapsulation design verification process.
– Added Autoclave or unbiased HAST sequential testing for non small die flow products.
– Added glass transition (Tg) temperature test.
20
19500 Appendix J Group B Qualification Differences• Group B subgroup 2
– Preconditioning per J-STD-020– Temperature cycling 90 cycles
• Group B subgroup 4 – Acoustic Microscopy– Design verification using MIL-STD-750 test method 2075 and MIL-
STD-1580 requirement 16 for plastic criteria
• Group B subgroup 7– Glass transition temperature Tg
21
19500 Appendix J Group C Qualification Differences
• Non-hermetic qualification flow = hermetic (except as noted)– Group C subgroup 2
• Preconditioning per J-STD-020• Temperature cycling 500 cycles
– Group C subgroup 3• Moisture sensitivity level• Highly Accelerated Stress Testing• Temperature cycling test condition G instead of condition C• 1000 hour temperature humidity test – 85C/85% RH
22
19500 Appendix J Group D Qualification Differences
• Non-hermetic qualification flow = hermetic (except as noted)– Group D subgroup 2 – steady state total dose radiation testing
• Device burn in completion will be required prior to beginning total dose radiation testing. Sample size of 10 – 15 devices required for radiation testing is specified in the draft document.
23
19500 Appendix J Group E Qualification Differences• Non-hermetic qualification flow = hermetic (except as noted)
– Group E subgroup 1• Preconditioning per J-STD-020• HAST or Temperature Humidity Bias (THB) • Temperature cycling 200 cycles versus 500 for hermetic devices
– Group E subgroup 1a• Preconditioning per J-STD-020• Temperature cycling 500 cycles
– Group E subgroup 9• Acoustic Microscopy• Moisture sensitivity level• Acoustic microscopy
24
19500 Appendix J Group E Qualification Differences
• Non-hermetic qualification flow = hermetic (except as noted) – Group E subgroup 10
• Glassivation temperature - Tg
• Plastic evaluation per MIL-STD-883 method 5011
• Construction analysis per SAE AS6294/3
• Outgassing and flammability per NASA-STD-6001 25
19500 Appendix J Group E Qualification Differences
• Non-hermetic qualification flow = hermetic (except as noted) – Group E subgroup 11
• Single Event Effect Testing – Characterization curves will be required for MOSFETs. Characterization data will be required for Schottky diodes with a forward current rating greater than or equal to 1 Amp.
26
19500 Appendix J Task Group Status Summary• The Task Group reviewed the final draft of 19500 Appendix J dated
May 19, 2020 during the May 26, 2020 teleconference to resolve reference to quality system requirements in MIL-PRF-19500 appendix D and ESD marking requirements in appendix E. Verbiage was added to the new Appendix J draft to reference MIL-PRF-19500 Appendix D and Appendix E for ESD marking requirements.
• The 19500 Appendix J draft dated May 19, 2020 was submitted on May 26, 2020 to DLA Land and Maritime for inclusion into the next initial draft of MIL-PRF-19500 which is scheduled to be revision P, amendment 5. Draft revision MIL-PRF-19500 Revision P, Amendment 5 is tentatively scheduled to be released as an initial draft to the government and user communities for review and comment in the June/July 2020 timeframe.
27
19500 Appendix J Task Group Future Plans
Current plan:
• Develop a list of test methods for inclusion in MIL-STD-750• Review comments to the initial draft of MIL-PRF-19500 revision P
amendment 5
Future work:
• Plans to add JANS flow to Appendix J will depend on user acceptance of the new Appendix J non hermetic military products
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Thank You!!
We would like to express our gratitude to the NASA NEPAG and SLS programs, Government Working Group, and Microchip Technologies for their continued support of this effort.
Contact information:
Benny DamronJacobs Space Exploration Group (JSEG)NASA Marshall Space Flight CenterBenny.Damron@nasa.gov
Ronan DillonMicrochip TechnologiesRonan.Dillon@microchip.com
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19500 Appendix J
Back up Slides
30
19500 Appendix J Group A Qualification Differences• Group A subgroup 1small die flow
31
Subgroup 1 (for small die flow only 2/ 3/)
Visual and mechanical examination 4 /
Acoustic microscopy
2071
J-STD-035
116 devices, c = 0(JANTXV)
45 devices, c = 0(JAN, JANTX )
Test condition per JEDEC J-STD-020 Condition as specified and documented by supplier. Option-temp cycle. No rejects allowed
Solderability 4/
Resistance to solvents 4/
2026
1022
15 leads, c = 0
15 devices, c = 0
Preconditioning
Acoustic microscopy
JEDEC JESD22-A113
J-STD-035Test condition per JEDEC J-STD-020 Condition as specified and documented by supplier. Option-temp cycle. No rejects allowed
Autoclave or,
UHAST or,
UHAST
JESD22-A102
JESD22-A118
121C/100%RH t = 96 hrs, or
130C/85% RH t = 96 hrs, or
110C/85%RH t =264 hrs
19500 Appendix J Group A Qualification Differences• Group A subgroup 1 small die flow
32
Temperature cycling (air to air) 4/
Autoclave or,
UHAST or,
UHAST
Temperature cycling (air to air) 4/
Acoustic microscopy
1051
JESD22-A102
JESD22-A118
1051
J-STD-035
Test condition G, or maximum storage temperature, whichever is less, 25 cycles.22 devices, c = 0
121C/100%RH t = 96 hrs, or130C/85% RH t = 96 hrs, or110C/85%RH t =264 hrs
121C/100%RH t = 96 hrs, or
130C/85% RH t = 96 hrs, or
110C/85%RH t =264 hrs
Test condition G, or maximum storage temperature, whichever is less, 25 cycles.22 devices, c = 0
Test condition per JEDEC J-STD-020 Condition as specified and documented by supplier.
Electrical measurements (group A, subgroup 2)
Bond strength 4/ 2037 Precondition TA = +250°C at t = 24 hrs or TA = +300°C at t = 2 hrs11 wires, c = 0
Decap internal visual (design verification) 2075 4 devices, c = 0
19500 Appendix J Group B Qualification Differences• Group B subgroup 2Sequential testing
33
Subgroup 2
Acoustic Microscopy J-STD-035
Start of sequential testing
Test condition per JEDEC J-STD-020 Condition as specified and documented by supplier.Option-temp cycle. No rejects allowed
Preconditioning
Acoustic Microscopy
JESD22-A113
J-STD-035
Test condition per JEDEC J-STD-020 Condition as specified and documented by supplier.Option-temp cycle. No rejects allowed
Autoclave , or
UHAST, or
UHAST
Electrical measurements 4/
JESD22-A102
JESD22-A118
121C/100% RH, 96 hours or
130C/ 100% RH, 96 hours, or
110C/85%RH, 264 hours
19500 Appendix J Group B Qualification Differences• Group B subgroup 2Sequential testing
34
Temperature cycling(air-to-air)
Autoclave
1051
JESD22-A102
Test condition G or maximum storage temperature, whichever is less. (45 cycles including screening)
121C/100%RH t = 96 hrs, or
UHAST, or
UHAST
Electrical measurements 4/
Temperature cycling (air to air)
Electrical measurements 4/
JESD22-A118
1051
130C/100% RH, 96 hours or
110C/85% RH, 264 hours
Test condition G or maximum storage temperature, hichever is less. (45 cycles including screening)
Acoustic Microscopy
Surge
J-STD-035
4066
Test condition per JEDEC J-STD-020 Condition as specified and documented by supplier.Option-temp cycle. No rejects allowed
As specified.
19500 Appendix J Group B Qualification Differences– Group B subgroup 4
35
Subgroup 4 Acoustic microscopy Decap internal visual (design verification)
J-STD-035 2075
Visual criteria in accordance with qualified design. Plastic concerns for 2075. Refer to MIL-STD-1580 Requirement 16 for plastic microcircuits,
19500 Appendix J Group B Qualification Differences– Group B subgroup 7
36
Subgroup 7Glass transition temperature
ASTM 1640
19500 Appendix J Group C Qualification Differences– Group C subgroup 2
37
Subgroup 2
Acoustic Microscopy J-STD-035
Test condition per JEDEC J-STD-020 Condition as specified and documented by supplier
Preconditioning
Acoustic Microscopy
JEDEC JESD22-A113
J-STD-035
Test condition per JEDEC J-STD-020 Condition as specified and documented by supplier.
Temperature cycling(air-to-air)
Acoustic Microscopy
1051 Test condition G, or maximum storage temperature, whichever is less. (500 cycles).
Test condition per JEDEC J-STD-020 Condition as specified and documented by supplier.Option-temp cycle. No rejects allowed
Electrical measurements Group A, subgroup 2.
19500 Appendix J Group C Qualification Differences– Group C subgroup 3
38
Subgroup 3
Acoustic Microscopy
Preconditioning
J-std-035
JEDEC JESD22-A113
Test condition per JEDEC J-STD-020 Condition as specified and documented by supplier.
Temperature cycling(Air to air)
1051 Test condition G (-55C/+150C), or maximum storage temperature, whichever is less. (100 cycles).
Highly Accelerated Stress Test (HAST, Biased)
Temperature cycling (air to air)
Temp Humidity Bias
Acoustic microscopy
JEDEC JESD22-A110
1051
J-STD-035
130C/85%RH, biased , 96 hours, or 110C/85%RH, biased, 264 hours
Test condition G (-55C/+150C), or maximum storage temperature, whichever is less. (100 cycles ).
85C/85%RH, biased, 1000 hours
Electrical measurements Group A, subgroup 2.
19500 Appendix J Group E Qualification Differences• Group E subgroup 9
39
Subgroup 9
Acoustic Microscopy
Moisture Sensitivity Level Classification
Acoustic Microscopy 3/
Electrical Measurements
JEDEC J-STD-035
JEDEC J-STD-020
JEDEC J-STD-035
Delamination >10%
Test is performed to determine moisture sensitivity level per JEDEC J-STD-020. Conditions will be used based on supplier data available. Moisture level will be the lowest numerical level (1-6) that has no failures based on pass/fail criteria in J-STD-020.
Delamination >10%, no additional delamination from pre-stress.
Group A, subgroup 2.
10 devices from MSL sample.C = 0
45 devices,c = 0
10 devices from previous Acoustic MicroscopyC = 0
45 devices,c = 0
19500 Appendix J Group E Qualification Differences• Group E subgroup 10
40
Subgroup 10
Glassivation Temperature (Tg)
Plastic evaluation
Construction analysis
Outgassing
ASTM E1640
883/5011
SAE6294/3
ASTM E595
Type I electrically conductive or Type II electrically insulative
A construction analysis as per SAE6294/3 is recommended
Recommended